TMT-based quantitative proteomics reveals the nutritional and stress resistance functions of anaerobic fungi in yak rumen during passage at different time intervals

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-12-02 DOI:10.1016/j.anaerobe.2023.102805
Jingrong Zhang , Yaqin Wei , Huizhen Qiu , Jiayi Han
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Abstract

Objectives

Anaerobic fungi are critical for nutrient digestion in the yak rumen. Although studies have reported the effects of passage at different time intervals on the community structure of yak rumen anaerobic fungi, it is unknown whether passage culture at different time intervals affects the microbial proteins of rumen anaerobic fungi and their functions.

Methods

Mycelium was obtained using the anaerobic continuous batch culture (CBC) of yak rumen fluid at intervals of 3 d, 5 d and 7 d. Quantitative analysis of fungal proteins and functional analysis was performed using tandem mass tagging (TMT) and bioinformatics.

Results

A total of 56 differential proteins (DPs) were found in 5 d vs. 3 d and 7 d vs. 3 d. Gene ontology (GO) enrichment indicated that the up-regulated proteins were mainly involved in biological regulation, cellular process, metabolic process, macromolecular complex, membrane, cell part, organelle, binding, catalytic activity and transporter activity. The downregulated proteins were mainly enriched in metabolic process, cell part, binding and catalytic activity. Furthermore, the downregulated proteins in 7 d vs. 3 d were related to membrane and organelle. Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment results indicated that DPs were enriched in 14 pathways in 5 d vs. 3 d and 7 d vs. 3 d, mainly including terpenoid backbone biosynthesis, alaine, aspartate and glutamate metabolism, arginine biosynthesis, hypotaurine, cyanoamino acid, glutathione, β-alanine, pyrimidine, purine, galactose and propanate metabolism, steroid biosynthesis, ribosome biogenesis in eukaryotes and aminoacyl tRNA biosynthesis. The DPs were enriched in only 2 pathways in 5 d vs 3 d, lysine biosynthesis and cysteine and methionine metabolism. N-glycan biosynthesis and retinol metabolism are only found in the metabolism of DPs in 7 d vs 3 d.

Conclusions

Yak rumen anaerobic fungal proteins are involved in nutrition and stress tolerance during passage at different time intervals.

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基于tmt的定量蛋白质组学揭示了不同时间间隔牦牛瘤胃内厌氧真菌在传代过程中的营养和抗逆性功能。
目的:厌氧真菌对牦牛瘤胃营养物质的消化具有重要作用。虽然已有研究报道了不同时间间隔传代对牦牛瘤胃厌氧真菌群落结构的影响,但不同时间间隔传代培养是否会影响瘤胃厌氧真菌的微生物蛋白及其功能尚不清楚。方法:采用厌氧连续间歇培养法(CBC)对牦牛瘤胃液进行菌丝体培养,培养间隔为3 d、5 d和7 d。采用串联质量标记(TMT)和生物信息学技术对真菌蛋白进行定量分析和功能分析。结果:在5个 d vs. 3d和7个 d vs. 3d共发现56个差异蛋白(dp)。基因本体(GO)富集表明,上调的蛋白主要参与生物调控、细胞过程、代谢过程、大分子复合物、膜、细胞部分、细胞器、结合、催化活性和转运蛋白活性。下调蛋白主要富集于代谢过程、细胞部分、结合和催化活性。此外,7 d和3 d中下调的蛋白与膜和细胞器有关。京都基因与基因组百科全书(KEGG)富集结果表明,DPs在5 d vs. 3 d和7 d vs. 3 d中富集了14条途径,主要包括萜类骨架生物合成、丙氨酸、天冬氨酸和谷氨酸代谢、精氨酸生物合成、次牛磺酸、氰氨基酸、谷胱甘肽、β-丙氨酸、嘧啶、嘌呤、半乳糖和丙氨酸代谢、类固醇生物合成、真核生物核糖体生物合成和氨基酰基tRNA生物合成。DPs仅在5 d vs 3 d、赖氨酸生物合成和半胱氨酸和蛋氨酸代谢两种途径中富集。n -聚糖的生物合成和视黄醇的代谢只在7 d vs 3 d的DPs代谢中发现。结论:牦牛瘤胃厌氧真菌蛋白在不同时间间隔传代过程中参与营养和胁迫耐受。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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